Method and apparatus for partially exposing conductive stips of flat laminated cable

ABSTRACT

The invention relates to a continuous process and an apparatus for partially exposing conductor tracks in fully insulated laminated cables according to specifiable parameters selectable in accordance with the subsequent conditions for use. The object of the invention is to insert windows in exactly predetermined parts above/below individual/all flat conductors of a multiconductor flat cable, which windows are distinguished by clean and accurate contours and furthermore ensure good positional stability of the conductors. The flat cable ( 1 ) is first fed to an apparatus and fixed on it in such a way that an individually feedable and individually movable peeling tool ( 5 ) can be coordinated in a defined manner with each flat conductor, both from above and from below, which peeling tool effects first an incision in the insulation layer, then peeling off down to the flat conductor and finally separation of the chip ( 10 ).

[0001] The invention relates to a continuous process and an apparatus for partially exposing the conductor strips of laminated cables completely insulated in the longitudinal direction, in accordance with specifiable parameters determined according to the subsequent conditions of use.

[0002] In the production of flexible laminated cables by adhesively bonding an upper laminate web, cut to corresponding lengths of previously determined parts, it is customary to leave slots over the exposed conductors. However, this considerably impairs the effectiveness of the known cost-saving production processes for flat cables. Furthermore, the precision required in the positioning of the windows and the positional stability of the flat conductors during the use of this process, which stability still has to be maintained, cannot be guaranteed so that complicated finishing operations are often required.

[0003] DE-GBM 89 08 274 discloses the adhesive bonding of an upper/lower laminate web, which was provided beforehand with appropriately positioned windows, to the still exposed flat conductors in the course of the production process, the disadvantages as described above likewise occurring.

[0004] German Patent 35 01 839 describes the use of a pulsed laser beam with ultraviolet emission for stripping conductors by means of which the laser beam vaporizes the insulation layer over the conductor in the intended parts without contact. Apart from the fact that here too complete and residue-free exposing of specific conductor segments cannot be reliably achieved, this process requires additional outlays for the extraction of the liberated plastic vapors which are harmful to health. In addition, the remaining combustion residues may prevent a reliable electrical connection of the exposed segments to other conductors. These deficiencies are also to be expected in the laser beam process described in WO 98/20590. Furthermore, it is known (e.g. DE 27 23 851) that the ends of laminated cables can be stripped with the aid of an electrically heatable knife, with the result that only windows which extend over the total cable width could be introduced into continuously moving material.

[0005] DE 19 43 374 discloses an arrangement for the complete or partial stripping of individual parts of laminated cables. This is effected using at least one laser whose beam is to be guided with such an energy and at such an angle to that part of the cable which is to be stripped that the desired amount of the insulation material is removed without the conductors being damaged. However, practical experience has shown that sufficiently accurate stripping which removes the insulation material without a residue, in particular in a dust-free manner, is not always achieved.

[0006] It is therefore the object of the invention to develop a process and an apparatus for producing windows in exactly predetermined parts above/below individual/all flat conductors of a multiconductor laminated cable, which windows are distinguished by clean and accurate contours and furthermore ensure good positional stability of the conductors. Finishing operations are to be substantially avoided.

[0007] The process according to the invention is described with its variants in the independent process claims and the associated apparatuses are described with their variants in the independent product claims. The dependent claims relate to advantageous embodiments of the process and of the apparatus or to variants thereof.

[0008] In one embodiment, the flat cable produced in a known manner is first fixed by means of the apparatus according to the invention in such a way that an individually feedable and individually movable peeling tool can be assigned to each conductor track both from above and from below. In a first operation, an incision is made in the upper and/or lower insulation layer at the beginning of the previously determined window opening(s) by setting down the peeling tool or tools required in each case. By subsequent slight raising of the peeling tool or tools required by a part of the thickness of the insulation layer and subsequent defined movement of the peeling tools along the flat cable, the insulation layer present above/below the conductor tracks is peeled off in accordance with the respective predetermined window length (working stroke). The window width is exactly reached by one cutting contour each at both ends of the cutting tool or tools. Thereafter, the peeling tools are raised, the cable attachment is released and the chips formed during peeling are separated off without dust production (empty stroke).

[0009] In one embodiment, the apparatus according to the invention consists of a table, a feed device for the laminated cable, a support with the peeling tools, an alignment and fixing unit and a chip breaker and of an electronic control unit with a measuring and central processing unit. According to the invention, a peeling tool is coordinated with each conductor track in the laminated cable from above and/or below.

[0010] The peeling tools are wedge-shaped in such a way that their end faces tapering to a small angle form a sharp cutting edge for cutting into and subsequently peeling off the windows.

[0011] The control unit serves for constant evaluation of the process results and correction thereof and the input and storage of process parameters for further variants of the production of windows and the reproducibility of the production sequence.

[0012] Since the cable always has tolerances, it is advantageous if stored or—preferably automatically—measured correction values are implemented manually or automatically with the axes present.

[0013] The invention is to be explained in more detail below with reference to an embodiment. In the attached drawings,

[0014]FIG. 1 shows a block diagram of the process according to the invention,

[0015]FIG. 2 shows the structure of an associated apparatus comprising tools arranged above the work table and

[0016]FIG. 3 shows an embodiment having pivotable peeling tools.

[0017] The laminated cable 1 is guided over the table 2 and aligned by means of the associated alignment and fixing unit 3 accurately in terms of position and distance with respect to the start of the cable and the tools. The wedge-shaped peeling tools 5 are arranged on the support 4 above the table 2, side by side and transverse to the flat cable 1. Their end faces tapering to a small angle each forming a sharp cutting edge 6 for cutting into the insulation layer and for subsequently peeling it off. Clean lateral cut edges of the windows 7 produced in the longitudinal direction of the flat cable 1 are achieved by additional sharp contours 8 at the triangular side faces of the peeling tools 5. All peeling tools 5 are longitudinally movable together with the support 4 and are arranged to be individually height-adjustable independently of one another in the support 4, so that they can be set up for cutting the windows 7 as defined beforehand in position and dimension into the insulation layer of the cable 1 and for peeling off the relevant insulation layer zones before the beginning of work. Behind the tool support 4, the alignment and fixing unit 3 and the chip breaker 9 are arranged in a height-adjustable manner on the work table 2. The apparatus is controlled by a measuring unit 11 and a central processor unit 12, which are electrically connected to the support 4, the alignment and fixing unit 3 and the chip breaker 9. Longitudinal segments of the laminated cable 1 passing through are detected by the measuring unit 11 and communicated to the central processor unit 12. After a preselected distance to the respective preceding window 7 or to the start of the flat cable has been reached, the central processor unit 12 transmits signals for alignment and fixing of the cable 1 to the executing apparatus. The peeling tool or tools 5 is or are lowered and the insulation layer is cut into above the conductor tracks of the flat cable 1. Thereafter, the respective peeling tool 5 is raised by a minimum amount and the support 4 with the wedge-shaped peeling tools 5 are moved in the direction of the longitudinal axis of the cable 1 by the length of the intended window 7 (working stroke). The insulation layer is peeled off above the conductor tracks and remains hanging on the insulation layer as chip 10 at the end of the window 7. After the peeling tools 5 return to their starting position (empty stroke), the laminated cable 1 is transported onwards in the opposite direction through the fixing unit until window 7 is present below the chip breaker 9, where the chip 10 is separated off and is removed by extraction. This is followed by the working stroke for the next window 7.

[0018] The windows can also be introduced in a continuous process for the production of the laminated cable. In this case, a flat cable buffer forms during the “peeling” operation before the support 4 of the peeling tool or tools 5. The division of the endless cable 1 into lengths for use is then carried out behind the apparatus. If lengths already cut to size are to be provided with windows, the fixing of the defined starting position can likewise be carried out in the apparatus according to the invention by means of the fixing unit after the appropriate program has been saved in the central processor unit 12.

[0019] The version according to FIG. 3 shows a further embodiment in which the peeling tool 5 is pivotably mounted on the support 4 by means of a two-arm lever 18 which is operated by a drive 14. The entire support 14 can be adjusted in its height relative to the work table 2 by means of an adjusting cam 16. An alignment and fixing unit can be operated by means of toggle lever 15, likewise by a drive 14. A frame supports the entire apparatus. Said apparatus can also be arranged between drive belts or drive rollers so that the belt feed can take place automatically. For the displacement of the work table relative to the peeling tools, a drive 14 which is adjustable in position by means of adjusting screw 19 is also provided at the side of the work table 2.

[0020] By means of the described continuous process according to the invention and the associated apparatus, electrically conducting windows can be introduced in exactly predetermined parts above and/or below individual or all conductor tracks of a multiconductor laminated cables which windows are distinguished by clean and accurate contours and nevertheless ensure good positional stability of the individual conductors. Subsequent finishing operations, for example during the mounting of cables, are very substantially avoided.

[0021] Variants of the processes described are mentioned in the ancillary independent claims and in the subclaims.

LIST OF REFERENCE NUMERALS USED

[0022]1 Laminated cable

[0023]2 Table

[0024]3 Alignment and fixing unit

[0025]4 Support

[0026]5 Peeling tools

[0027]6 Cutting edge of the peeling tool

[0028]7 Window in the laminated cable

[0029]8 Contours at the end of the peeling tool

[0030]9 Chip breaker

[0031]10 Chip

[0032]11 Measuring unit

[0033]12 Central processor unit

[0034]13 Feed device

[0035]14 Drives

[0036]15 Toggle lever

[0037]16 Eccentric height adjustment

[0038]17 Frame 

1. A process for partially exposing conductor tracks in multiconductor laminated cables by introducing windows into the upper and/or lower insulation layer of prefabricated, insulated laminated cables (1) of any desired length, comprising the steps (a) introduction of the laminated cable (1) into an apparatus having at least one individually feedable and individually movable peeling tool (5); (b) fixing of the laminated cable (1) in the apparatus so that this peeling tool (5) can be coordinated with at least one conductor track at least from above or from below in accordance with the specified window; (c) cutting into the upper and/or lower insulation layer by relative penetrating movement between peeling tool (5) and insulation; (d) peeling off of the upper and/or lower insulation layer down to the conductor tracks present therein, in accordance with the respective specified window lengths and window widths by movement of the flat cable (1) relative to the peeling tool (5) and (e) separation of the chip (10) formed during peeling.
 2. A process for partially exposing conductor tracks in multiconductor laminated cables by introducing windows into the upper and/or lower insulation layer of prefabricated, insulated laminated cables (1) of any desired length, comprising the steps (a) introduction of the laminated cable (1) into an apparatus having at least two individually feedable and individually movable peeling tools (5); (b) fixing of the laminated cable (1) in the apparatus so that at least one of the peeling tools (5) can be coordinated with at least each conductor track to be processed, from above or from below, in accordance with the specified window; (c) cutting into the upper and/or lower insulation layer by relative penetrating movement between peeling tool (5) and insulation; (d) peeling off of the upper and/or lower insulation layer down to the conductor tracks present therein, in accordance with the respective specified window lengths and window widths by movement of the flat cable (1) relative to the peeling tool (5) and (e) separation of the chip (10) formed during peeling.
 3. A process for partially exposing conductor tracks in multiconductor laminated cables by introducing windows into the upper and/or lower insulation layer of prefabricated, insulated laminated cables (1) of any desired length, comprising the steps (a) introduction of the laminated cable (1) into an apparatus having individually feedable and individually movable peeling tools (5); (b) fixing of the laminated cable (1) in the apparatus so that one of the peeling tools (5) can be coordinated with at least one conductor track both from above and from below in accordance with the specified window; (c) cutting into the upper and/or lower insulation layer by relative penetrating movement between peeling tool (5) and insulation; (d) peeling off of the upper and/or lower insulation layer down to the conductor tracks present therein, in accordance with the respective specified window lengths and window widths by movement of the flat cable (1) relative to the peeling tool (5) and (e) separation of the chip (10) formed during peeling.
 4. The process as claimed in claim 1, which comprises (f) cutting of the flat cable (1) to a settable or specifiable length.
 5. The process as claimed in claim 2, which comprises (f) cutting the flat cable (1) to a settable or specifiable length.
 6. The process as claimed in claim 3, which comprises (f) cutting the flat cable (1) to a settable or specifiable length.
 7. The process as claimed in claim 1, wherein the laminated cable (1) is aligned accurately with respect to position and distance in step (a).
 8. The process as claimed in claim 2, wherein the laminated cable (1) is aligned accurately with respect to position and distance in step (a).
 9. The process as claimed in claim 3, wherein the laminated cable (1) is aligned accurately with respect to position and distance in step (a).
 10. The process as claimed in claim 1, wherein the peeling tool or tools (5) is or are aligned accurately with respect to position and distance (in respect of the laminated cable) in step (a), the position of the flat cable (1) preferably being automatically detected.
 11. The process as claimed in claim 2, wherein the peeling tool or tools (5) is or are aligned accurately with respect to position and distance (in respect of the laminated cable) in step (a), the position of the flat cable (1) preferably being automatically detected.
 12. The process as claimed in claim 3, wherein the peeling tool or tools (5) is or are aligned accurately with respect to position and distance (in respect of the laminated cable) in step (a), the position of the flat cable (1) preferably being automatically detected.
 13. The process as claimed in claim 1, wherein peeling off of the window (7) predetermined in length and width is effected by slight raising or lowering of the respective required peeling tool or tools (5) and a subsequent common movement of the peeling tools (5) along the laminated cable (1) or a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until resetting of the required peeling tools (5).
 14. The process as claimed in claim 2, wherein peeling off of the window (7) predetermined in length and width is effected by slight raising or lowering of the respective required peeling tool or tools (5) and a subsequent common movement of the peeling tools (5) along the laminated cable (1) or a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until resetting of the required peeling tools (5).
 15. The process as claimed in claim 3, wherein peeling off of the window (7) predetermined in length and width is effected by slight raising or lowering of the respective required peeling tool or tools (5) and a subsequent common movement of the peeling tools (5) along the laminated cable (1) or a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until resetting of the required peeling tools (5).
 16. The process as claimed in claim 1, wherein the peeling off of the window (7) predetermined in length and width is effected by slight feeding of the laminated cable (1) by raising of a support below the required peeling tool or tools (5) respectively coordinated and a subsequent common movement of the peeling tools (5) and of the support along the laminated cable (1) or by a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until the support has been reset.
 17. The process as claimed in claim 2, wherein the peeling off of the window (7) predetermined in length and width is effected by slight raising of a support below the required peeling tool or tools (5) respectively coordinated and a subsequent common movement of the peeling tool (5) and of the support along the laminated cable (1) or a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until the support has been reset.
 18. The process as claimed in claim 3, wherein the peeling off of the window (7) predetermined in length and width is effected by slight raising of a support below the required peeling tool or tools (5) respectively coordinated and a subsequent common movement of the peeling tool (5) and of the support along the laminated cable (1) or a subsequent movement of the flat cable (1) in the peeling direction until the set window length has been reached or at least until the support has been reset.
 19. The process as claimed in claim 1, wherein the separation of the chip (10) formed during peeling is effected after slight removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7).
 20. The process as claimed in claim 2, wherein the separation of the chip (10) formed during peeling is effected after slight removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7).
 21. The process as claimed in claim 3, wherein the separation of the chip (10) formed during peeling is effected after slight removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7).
 22. The process as claimed in claim 1, wherein the separation of the chip (10) formed during peeling is effected after further removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7) to a chip breaker (9).
 23. The process as claimed in claim 2, wherein the separation of the chip (10) formed during peeling is effected after further removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7) to a chip breaker (9).
 24. The process as claimed in claim 3, wherein the separation of the chip (10) formed during peeling is effected after further removal of the peeling tools (5) from the insulation or lowering of the support and transport of the flat cable (1) with window (7) to a chip breaker (9).
 25. The process as claimed in claim 1, wherein the movable peeling tool (5) is moved relative to the flat cable (1) in at least two directions in space, in particular up-down and transverse to the flat cable (1), in order to produce windows by peeling in various parts of the flat cable (1).
 26. An apparatus for carrying out a process as claimed in any of the preceding claims, comprising at least one movable peeling tool (5) which is movable relative to the flat cable (1) in at least two directions in space, in particular up-down and transverse to the flat cable (1), in order to produce windows by peeling in various parts of the flat cable (1) in the operating state.
 27. The apparatus as claimed in claim 26, wherein the movable peeling tool (5) is connected to at least one further tool which permits another type of processing, such as preferably punching, cutting to length, slitting, marking, embossing of the flat cable and/or cleaning or testing of the exposed conductor tracks.
 28. A process for partially exposing conductor tracks in multiconductor laminated cables (1) as claimed in claim 1, 2 or 3, wherein at least one of the following steps is carried out as an additional process step within the same apparatus: punching, cutting to length, slitting, marking, embossing of the flat cable and/or cleaning or testing of the exposed conductor tracks.
 29. An apparatus for exposing conductor tracks in multiconductor laminated cables (1) by introducing windows into an upper and/or lower insulation layer of prefabricated, insulated laminated cable (1), comprising a feed device (13), a worktable (2) having a support for holding and processing the laminated cable (1), movable tool supports (4) and an electronic control unit (11; 12), wherein a peeling tool (5) is coordinated from above and/or from below with at least one flat conductor laid in the laminated cable (1), wherein all peeling tools on one side of the flat cable (1) are mounted together with a support (4) and individually independently of one another in the support (4) in a height-adjustable manner, wherein an alignment and fixing unit (3) arranged on the work table (2) ensures exact positioning of the laminated cable (1) accurately with respect to time on the work table (2) and relative to the peeling tools (5), wherein the control unit (11; 12) consists of a measuring unit (11) arranged on the work table (2) and a central processor unit (12).
 30. An apparatus for exposing conductor tracks in multiconductor laminated cables by introducing windows into an upper and/or lower insulation layer of prefabricated, insulated laminated cable (1), comprising a feed device (13), a worktable (2) having a support for holding and processing the laminated cable (1), movable tool supports (4) and an electronic control unit (11; 12), wherein one peeling tool (5) each is coordinated, from above and/or from below, with at least two flat conductors laid in the laminated cable (1), wherein all peeling tools on one side of the flat cable (1), together with a support (4), permit a longitudinal movement relative to the flat cable (1) and are mounted individually independently of one another in said support (4) in a height-adjustable manner, wherein a transport, alignment and fixing unit (3) arranged on the work table (2) ensures exact positioning of the laminated cable (1) accurately with respect to time on the work table (2) and relative to the peeling tools (5), wherein the control unit (11; 12) consists of a measuring unit (11) arranged on the work table (2) and a central processor unit (12) and is operatively connected to all units.
 31. An apparatus for exposing conductor tracks in multiconductor laminated cables (1) by introducing windows into an upper and/or lower insulation layer of prefabricated, insulated laminated cable (1), comprising a feed device (13), a worktable (2) for holding and processing the laminated cable (1), movable tool supports (4) and an electronic control unit (11; 12), wherein one peeling tool (5) each is coordinated, from above and/or from below, with at least two flat conductors laid in the laminated cable (1), wherein all peeling tools on one side of the flat cable (1) are longitudinally movable together with one of the supports (4) and are mounted individually independently of one another in said support (4) in a height-adjustable manner, wherein at least one chip breaker (9) is arranged behind the peeling tools (5) for lifting off the peeled chips (10) and/or a cutting unit is arranged on the work table for cutting the laminated cable to the appropriate length, wherein an alignment and fixing unit (3) arranged on the work table (2) ensures exact positioning of the laminated cable (1) accurately with respect to time on the work table (2) and relative to the peeling tools (5), wherein the control unit (11; 12) consists of a measuring unit (11) arranged on the work table (2) and a central processor unit (12).
 32. The apparatus as claimed in claim 29, wherein a chip breaker (9) for lifting off the peeled chips (10) is arranged behind the peeling tools (5).
 33. The apparatus as claimed in claim 30, wherein a chip breaker (9) for lifting off the peeled chips (10) is arranged behind the peeling tools (5).
 34. The apparatus as claimed in claim 32, wherein the chip breaker (9) is arranged on the work table.
 35. The apparatus as claimed in claim 33, wherein the chip breaker (9) is arranged on the work table.
 36. The apparatus as claimed in claim 31, wherein the chip breaker (9) is arranged independently of the work table.
 37. The apparatus as claimed in claim 29, wherein the peeling tool (5) is wedge-shaped.
 38. The apparatus as claimed in claim 30, wherein the peeling tool (5) is wedge-shaped.
 39. The apparatus as claimed in claim 31, wherein the peeling tool (5) is wedge-shaped.
 40. The apparatus as claimed in claim 29, wherein the central processor unit (12) is electrically or pneumatically or hydraulically connected to the measuring unit (11), to the chip breaker (9), to the alignment and fixing unit (3) and to the work table (2) or to the support and/or to the cutting unit.
 41. The apparatus as claimed in claim 30, wherein the central processor unit (12) is electrically or pneumatically or hydraulically connected to the measuring unit (11), to the chip breaker (9), to the transport, alignment and fixing unit (3) and to the work table (2) or to the support and/or to the cutting unit.
 42. The apparatus as claimed in claim 31, wherein the central processor unit (12) is electrically or pneumatically or hydraulically connected to the measuring unit (11), to the chip breaker (9), to the alignment and fixing unit (3) and to the work table (2) or to the support and/or to the cutting unit.
 43. The apparatus as claimed in claim 36, wherein the peeling tool (5) is wedge-shaped in such a way that its end faces form a cutting edge (6) having sharp contours (8).
 44. The apparatus as claimed in claim 37, wherein the peeling tool (5) is wedge-shaped in such a way that its end faces form a cutting edge (6) having sharp contours (8).
 45. The apparatus as claimed in claim 38, wherein the peeling tool (5) is wedge-shaped in such a way that its end faces form a cutting edge (6) having sharp contours (8).
 46. The apparatus as claimed in claim 29, wherein the chip breaker (9) is arranged in a height-adjustable manner and/or a longitudinally movable manner on the work table (2).
 47. The apparatus as claimed in claim 30, wherein the chip breaker (9) is arranged in a height-adjustable manner and/or a longitudinally movable manner on the work table (2).
 48. The apparatus as claimed in claim 31, wherein the chip breaker (9) is arranged in a height-adjustable manner and/or a longitudinally movable manner on the work table (2).
 49. The apparatus as claimed in claim 26, wherein the working depths of the tool or tools can be automatically or manually adapted to the position or dimensions of the flat conductor in the laminated cable. 